Small Fragment Locking Compression Plate (LCP ) System

Stainless Steel and Titanium Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Table of Contents Introduction Small Fragment Locking Compression Plate (LCP) System 2 AO Principles 4 Indications 5 Fixation Principles 6 Surgical Technique Preparation 11 Reduction and Temporary Plate Placement 12 Screw Insertion 13 Screw Placement Verification 16 Postoperative Treatment 18 Implant Removal 18 Product Information Implants 19 Instruments 23 Set List 30 Discontinued Product 41 MR Information The Small Fragment Locking Compression Plate System has not been evaluated for safety and compatibility in the MR environment. It has not been tested for heating, migration, or image artifact in the MR environment. They safety of the Small Fragment Locking Compression Plate System in the MR environment is unknown. Scanning a patient who has this device may result in patient injury. Image intensifier control Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 1

Small Fragment Locking Compression Plate (LCP ) System The aim of any surgical fracture treatment is to reconstruct the anatomy and restore its function. According to the AO, internal fixation is distinguished by precise reduction, stable fixation, preservation of blood supply, and early, functional mobilization. Plate and screw osteosynthesis has been established and clinically recognized for quite some time. Clinical results have been improved by using internal fixation with angular stability (internal fixators) in metaphyseal fractures and in osteopenic bone. The DePuy Synthes Locking Compression Plate (LCP ) System is part of a stainless steel and titanium plate and screw system that merges locking screw technology with conventional plating techniques. The Locking Compression Plate System has many similarities to existing plate fixation methods, but with a few important improvements. Locking screws provide the ability to create a fixed-angle construct while utilizing familiar AO plating techniques. A fixed-angle construct provides advantages in osteopenic bone or multifragmentary fractures where traditional screw purchase is compromised. Locking screws do not rely on plate/bone compression to maintain stability, but function similarly to multiple small angled blade plates. Plate features The Locking Compression Plate (LCP) System has the following LC-DCP Plate features: Uniform hole spacing Load (compression) and neutral screw positions Locking compression plates have combination locking and compression holes (Combi holes). The Combi holes allow placement of standard cortex and cancellous bone screws on one side or threaded conical locking screws on the opposite side of each hole. a. Threaded hole section for locking screws b. Dynamic compression unit (DCU) hole section for standard screws c. Locking screw in threaded side of plate hole d. Cortex screw in compression side of plate hole Note: Holes in straight and reconstruction plates are oriented so that the compression component of the hole is always directed toward the middle of the plate. Holes in straight LCP Plates are larger at the two ends to allow the insertion of cancellous bone screws. 223.581 241.981 c d a b 2 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Small Fragment Locking Compression Plate (LCP) System 3.5 mm Locking Screws, self-tapping, with StarDrive TM Recess The 3.5 mm locking screws mate with the threaded plate holes to form a fixed-angle construct. Locking screw design The screw design has been modified, as compared to standard 3.5 mm cortex screws, to enhance fixation and facilitate the surgical procedure. Locking threads mate with the plates Self-tapping flutes Features include: Conical screwhead The conical head facilitates alignment of the locking screw in the threaded plate hole to provide a secure screw/ plate construct. Large core diameter The large core diameter improves bending and shear strength, and distributes the load over a larger area in the bone. Thread profile The shallow thread profile of the locking screws results from the larger core diameter, but is acceptable because locking screws do not rely solely on the screw threads to create compression between the plate and the bone to maintain stability. StarDrive Recess Cortical thread profile Drive mechanism The StarDrive Recess provides improved torque transmission to the screw while retaining the screw without the use of a holding sleeve. Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 3

AO Principles AO PRINCIPLES In 1958, the AO formulated four basic principles, which have become the guidelines for internal fixation. 1,2 In 1958, the AO formulated four basic principles, which have become the guidelines for internal fixation 1, 2. 4_Priciples_03.pdf 1 05.07.12 12:08 Anatomic reduction Anatomic reduction Fracture reduction and fixation to Fracture reduction and fixation to restore anatomical relationships. restore anatomical relationships. 1 2 Stable fixation Stable fixation Fracture fixation providing absolute Fracture fixation providing absolute or relative stability, as or relative stability, as required by the patient, the injury, and the required by the patient, the injury, personality of the fracture. and the personality of the fracture. Early, active mobilization Early and safe mobilization and and rehabilitation of the injured part part and the patient as a whole. 4 3 Preservation of of blood supply Preservation of of the the blood blood supply supply to to soft tissues and and bone bone by by gentle reduction gentle reduction techniques techniques and and careful handling. 1. Müller ME, Allgöwer M, Schneider R, Willenegger H. Manual of Internal Fixation. 3rd ed. Berlin, Heidelberg, New York: Springer-Verlag; 1991. 2. Rüedi TP, RE Buckley, CG Moran. AO Principles of Fracture Management. 1 Müller ME, M Allgöwer, R Schneider, H Willenegger. Manual of Internal 2nd ed. Stuttgart New York: Thieme; 2007. Fixation. 3rd ed. Berlin Heidelberg New York: Springer. 1991. 2 Rüedi TP, RE Buckley, CG Moran. AO Principles of Fracture Management. 2nd ed. Stuttgart, New York: Thieme. 2007. 4 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Indications Synthes Small Fragment Locking Compression Plates (LCP) are intended for fixation of fractures, osteotomies, and nonunions of the clavicle, scapula, olecranon, humerus, radius, ulna, pelvis, distal tibia, and fibula, particularly in osteopenic bone. Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 5

Fixation Principles The following points distinguish treatment using locking screw technology from conventional plating techniques: It enables fracture treatment using compression plating with conventional cortex or cancellous bone screws An LCP Plate can also be used as an internal fixator and permits stable bridging over shattered zones The LCP System permits the combination of conventional and locking screws Unicortical locking screw permits better vascularity Note: The LCP System applies to many different plate types and is therefore suitable for a large number of fracture types. For that reason, this technique guide does not deal with any specific fracture type. Please refer also to the AO Principles of Fracture Management, 2 and AO Manual of Fracture Management Internal Fixators. 3 a Unicortical screw fixation Bicortical screw fixation has long been the traditional method of compressing a plate to the bone where friction between the plate and the bone maintains stability. Screw stability and load transfer are accomplished at two points along the screw: the near and far cortices. Unicortical locking screws provide stability and load transfer only at the near cortex due to the threaded connection between the plate and the screw. Screw stability and load transfer are accomplished at two points along the screw: the screwhead and near cortex. Because the screw is locked to the plate, fixation does not rely solely on the pullout strength of the screw or on maintaining friction between the plate and the bone. b a. Bicortical screws require 2 cortices to achieve stability. b. Unicortical screws utilize the locked screw and the near cortex to achieve stability. 2. Thomas P. Rüedi, et al, ed., AO Principles of Fracture Management, New York: Thieme, 2000. 3. M. Wagner and R. Frigg, AO Manual of Fracture Management Internal Fixators, New York: Thieme, 2006. 6 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Fixation Principles The following examples show the biomechanical features of conventional plating techniques, locked or bridge plating techniques, and a combination of both. Conventional plating F3 F2 Absolute stability The tensile force (F1) originating from tightening the screws presses the plate onto the bone (F2). The developing friction (F3) between the plate and the bone leads to stable plate fixation. To ensure absolute stability, the friction resistance must be higher than the axial forces (F4) arising during rehabilitation. F4 F1 F2 F4 Anatomic contouring of the plate The aim of internal fixation is anatomic reduction, particularly in articular fractures. Therefore, the plate must be contoured to the shape of the bone. Lag screw Interfragmentary compression is accomplished by using a lag screw. This is particularly important in intra-articular fractures which require a precise reduction of the joint surfaces. Lag screws can be angled in the plate hole, allowing placement of the screw perpendicular to the fracture line. Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 7

Fixation Principles Primary loss of reduction In conventional plating, even though the bone fragments are correctly reduced prior to plate application, fracture dislocation will result if the plate does not fit the bone. In addition, if the lag screw is not seated perpendicular to the fracture line (e.g., spiral fracture of the distal tibia), shear forces will be introduced. These forces may cause loss of reduction. Secondary loss of reduction Under axial load, postoperative, secondary loss of reduction may occur by toggling of the screws. Since cortex screws do not lock to the plate, the screws cannot oppose the acting force and may loosen, or be pushed axially through the plate holes. Blood supply to the bone The periosteum is compressed under the plate area, reducing or even interrupting blood supply to the bone. The result is delayed bone healing due to temporary osteoporosis underneath the plate. Osteoporosis Due to compromised cortical structure, screws cannot be tightened sufficiently to obtain the compression needed to support the bone. This may cause loosening of the screws and loss of stability, and may jeopardize the reduction. Standard plating achieves good results in: Good quality bone Fractures which are traditionally fixed with lag screws to achieve direct bone healing Special attention must be paid to: Osteoporotic bone; during rehabilitation, the load should be kept to a minimum to prevent postoperative loss of reduction Multifragmentary fractures; the anatomic reduction may be accomplished at the expense of extensive soft tissue trauma and denudation 8 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Fixation Principles Bridge/locked plating using locking screws Screws lock to the plate, forming a fixed-angle construct Bone healing is achieved indirectly by callus formation when using locking screws exclusively Maintenance of primary reduction Once the locking screws engage the plate, no further tightening is possible. Therefore, the implant locks the bone segments in their relative positions regardless of degree of reduction. Precontouring the plate minimizes the gap between the plate and the bone, but an exact fit is not necessary for implant stability. This feature is especially advantageous in minimally or less invasive plating techniques because these techniques do not allow exact contouring of the plate to the bone surface. Stability under load By locking the screws to the plate, the axial force is transmitted over the length of the plate. The risk of a secondary loss of the intraoperative reduction is reduced. Blood supply to the bone Locking the screw into the plate does not generate additional compression. Therefore, the periosteum will be protected and the blood supply to the bone preserved. Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 9

Fixation Principles Combined internal fixation The combination of conventional compression plating and locked plating techniques enhances plate osteosynthesis. The result is a combination hole or Combi hole that, depending on the indication, allows standard compression plating, locked/bridge plating, or a combination of both. Internal fixation using a combination of locking screws and standard screws Note: If a combination of cortex and locking screws is used, a cortex screw should be inserted first to pull the plate to the bone. If locking screws (1) have been used to fix a plate to a fragment, subsequent insertion of a standard screw (2) in the same fragment without loosening and retightening the locking screw is NOT RECOMMENDED. Warning: If a locking screw is used first, care should be taken to ensure that the plate is held securely to the bone to avoid spinning of the plate about the bone. Dynamic compression Once the metaphyseal fragment has been fixed with locking screws, the fracture can be dynamically compressed using standard screws in the DCU portion of the Combi hole. Locked and standard plating techniques First, use lag screws to anatomically reconstruct the joint surfaces The behavior of a locking screw is not the same as that of a lag screw. With the locked plating technique, the implant locks the bone segments in their relative positions regardless of how they are reduced A plate used as a locked/bridge plate does not produce any additional compression between the plate and the bone The unicortical insertion of a locking screw causes no loss of stability 11 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Preparation 1. Plate selection Instrument 329.87, Bending Template (7, 9, or 12 holes) 329.89, or 329.820 The plates are available in various lengths similar to the DePuy Synthes LC-DCP Small Fragment System. If necessary, use a bending template to determine plate length. 2. Contouring Use the bending instruments to contour the locking compression plate to the anatomy. Note: The plate holes have been designed to accept some degree of deformation. When bending the plate, place the bending irons on two consecutive holes. This ensures that the threaded holes will not be distorted. Significant distortion of the locking holes will reduce locking effectiveness. Please refer to the AO Principles of Fracture Management, 4 and AO Manual of Fracture Management Internal Fixators. 5 Precautions: Reverse bending or use of the incorrect instrumentation for bending may weaken the plate and lead to premature plate failure (e.g. breakage). Do not bend the plate beyond what is required to match the anatomy. Do not bend the plate at the level of the holes. 4. Rüedi. 5. Wagner. Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 11

Reduction and Temporary Plate Placement 3. Reduction and temporary plate placement Instruments 324.024 324.024 Push-Pull Reduction Sleeve 324.023 Threaded Plate Holder or 324.031 Threaded Plate Holder, long 324.024 The plate may be temporarily held in place with standard plate holding forceps or the push-pull reduction device. Note: The middle of the plate should be positioned over the fracture site if compression of the fracture fragments is desired. The push-pull reduction device is designed to temporarily hold the plate to the bone through a plate hole. The device is self-drilling and connects with the DePuy Synthes quick connection for power insertion. Insert into near cortex only. After power insertion, turn the collet clockwise until it pulls the plate securely to the bone. Note: Care should be taken to avoid inserting this device in a hole that will be needed immediately for plate fixation. However, the device may be removed and a screw inserted through the same plate hole. A threaded plate holder can also be used as an aid to position the plate on the bone. The plate holder may also function as an insertion handle for use with minimally invasive plating techniques. 324.031 Precautions: Instruments and screws may have sharp edges or moving joints that may pinch or tear user s glove or skin. Handle devices with care and dispose worn bone cutting instruments in an approved sharps container. 11 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Screw Insertion 4. Screw insertion Determine whether standard 3.5 mm cortex screws, 4.0 mm cancellous screws, or 3.5 mm locking screws will be used for fixation. A combination of all may be used. Notes: 2.7 mm cortex screws can only be used in the round holes of the right-angle T-plates, oblique T-plates, and one-third tubular plates. If a combination of cortex, cancellous, and locking screws is used, a standard screw should be used first to pull the plate to the bone. Warning: If a locking screw is used first, care should be taken to ensure that the plate is held securely to the bone to avoid spinning of the plate about the bone. Instrument 323.36 3.5 mm Universal Drill Guide Insertion of a cortex or cancellous bone screw Use the 3.5 mm universal drill guide for an eccentric (compression) or neutral (buttress) insertion of cortex screws. Note: The 3.5 mm LC-DCP Drill Guide and the 3.5 mm DCP Drill Guide are NOT suitable for use with LCP Plates. Neutral insertion of a standard screw When pressing the universal drill guide into the DCU portion of the LCP Plate, it will center itself and allow neutral predrilling. Dynamic compression, eccentric insertion of a cortex screw To drill a hole for dynamic compression, place the universal drill guide eccentrically at the edge of the DCU portion of the LCP Plate hole, without applying pressure. Tightening of the cortex screws will result in dynamic compression corresponding to that of the LC-DCP Plates. Neutral position Dynamic compression Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 11

Screw Insertion Instruments 310.288 2.8 mm Drill Bit 312.648 2.8 mm Threaded Drill Guide 319.01 Depth Gauge Insertion of 3.5 mm locking screws Note: The locking screw is not a lag screw. Use standard screws when requiring a precise anatomical reduction (e.g., joint surfaces) or interfragmentary compression. Before inserting the first locking screw, perform anatomical reduction and fix the fracture with lag screws, if necessary. After the insertion of locking screws, an anatomical reduction will no longer be possible without loosening the locking screw. Figure 1 Screw the 2.8 mm threaded drill guide into an LCP Plate hole until fully seated (Figure 1). Note: Since the direction of a locking screw is determined by plate design, final screw position may be verified with a K-wire prior to insertion. This becomes especially important when the plate has been contoured or applied in metaphyseal regions around joint surfaces (refer to Screw placement verification on page 17). Figure 2 Warning: Do not try to bend the plate using the threaded drill guide because damage may occur to the plate hole threads. Use the 2.8 mm drill bit to drill the desired depth (Figure 2). Remove the threaded drill guide and use the depth gauge to determine screw length (Figure 3). Precautions: The use of the threaded drill guide is mandatory in order to ensure that the locking screw is drilled in the proper perpendicular angle and correctly locked in the plate. Always irrigate during drilling to avoid thermal damage to the bone. For Long screws and thick cortical bone, ensure sufficient cooling during insertion. Figure 3 Do not insert the drill tip into the opposite cortical bone to prevent damage of the opposite side structure and to avoid removal problems. 11 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Screw Insertion Instruments 314.115 StarDrive Screwdriver, T15 314.116 StarDrive Screwdriver Shaft, T15 511.770* Torque Limiting Attachment, 1.5 Nm or 511.773 Torque Limiting Attachment, 1.5 Nm, quick coupling Incorrect Insert the locking screw under power using a torque limiting attachment and StarDrive Screwdriver shaft. Note: Recheck each locking screw before closing to verify that the screws are securely locked to the plate. Screwheads must be flush with the plate in the locked position before they can be considered fully seated. Warning: Always use a torque limiting attachment (TLA) when using power to insert locking screws. Note: Do not lock the screws at full speed to reduce the risk of stripping the head. This can make it difficult to remove the implant. Alternative method of locking screw insertion Use the StarDrive Screwdriver to manually insert the appropriate length locking screw. Carefully tighten the locking screw, as excessive force is not necessary to produce effective screw-to-plate locking. Precaution: For long screws and thick cortical bone, ensure sufficient cooling during insertion. *Also available. Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 11

Screw Placement Verification 5. Screw placement verification Instruments 292.71 1.6 mm Kirschner Wire with Thread 323.023 1.6 mm Wire Sleeve 323.025 Direct Measuring Device Since the direction of a locking screw is determined by plate design, final screw position may be verified with a K-wire prior to insertion. This becomes especially important when the plate has been contoured or applied in metaphyseal regions around joint surfaces. Figure 1 With the 2.8 mm threaded drill guide in place, insert the 1.6 mm wire sleeve into the threaded drill guide (Figure 1). Insert a threaded 1.6 mm Kirschner wire through the wire sleeve and drill to the desired depth (Figure 2). Verify K-wire placement under image intensification to determine if final screw placement is acceptable (Figure 3). Notes: The K-wire position represents the final position of the locking screw. Confirm that the K-wire does not enter the joint. If the angle of the locking screw is not optimal, it can be corrected. Bend the plate as needed, or move it in a proximal or distal direction. This technique is also suitable to preliminarily fix the plate to the bone. Figure 2 Figure 3 11 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Screw Placement Verification Measurement may be taken by sliding the tapered end of the direct measuring device over the K-wire down to the wire sleeve (Figure 4). Remove the direct measuring device, K-wire and 1.6 mm wire sleeve, leaving the threaded drill guide intact. Use the 2.8 mm drill bit to drill the near cortex. Remove the threaded drill guide. Insert the appropriate length locking screw. Figure 4 Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 11

Postoperative Treatment and Implant Removal Postoperative treatment Postoperative treatment with locking compression plates does not differ from conventional internal fixation procedures. Implant removal To remove locking screws, unlock all screws from the plate; then remove the screws completely from the bone. This prevents simultaneous rotation of the plate when removing the last locking screw. 11 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Screws 2.7 mm Cortex Screws, self-tapping May be used in the distal locking holes Compress the plate to the bone Fully threaded shaft Available in stainless steel and titanium 202.810 202.855 402.810 402.855 3.5 mm Cortex Screws, self-tapping May be used in the DCU portion of the Combi holes in the plate shaft or in round locking holes Compress the plate to the bone or create axial compression Fully threaded shaft Available in stainless steel and titanium 204.810 204.860 404.810 404.855 3.5 mm Cortex Screws, self-tapping, with T15 StarDrive Recess May be used in the DCU portion of the Combi holes in the plate shaft or in round locking holes Compress the plate to the bone or create axial compression Fully threaded shaft Available in stainless steel and titanium 02.200.010 02.200.060 04.200.010 04.200.060 3.5 mm Locking Screws, self-tapping, with StarDrive Recess Used in the locking portion of the Combi holes or in round locking holes Create a locked, fixed-angle screw/plate construct Self-tapping tip Fully threaded shaft Available in stainless steel and titanium alloy* 212.101 212.124 412.101 412.124 * Ti-6Al-7Nb Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 11

Screws 4.0 mm Cancellous Bone Screws May be used in the DCU portion of the Combi holes, in the plate shaft or in round locking holes Compress the plate to the bone or create axial compression Fully or partially threaded shaft Available in stainless steel and titanium 206.010 206.060 207.010 207.050 406.010 406.060 407.010 407.050 22 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Plates 3.5 mm LCP Plates Available with 2 16 Combi holes (33 mm 215 mm lengths), 18 (241 mm), 20 mm (267 mm) and 22 Combi holes (293 mm) Limited-contact plate design Tapered plate ends for submuscular plate insertion Available in stainless steel and titanium 223.581 3.5 mm LCP T-Plates, 3 holes head, right angle Available with 3 8 shaft holes (50 mm 97 mm lengths) Plate contains Combi holes in the shaft, locking holes in the head Available in stainless steel and titanium 241.171 3.5 mm LCP T-Plates, 4 holes head, right angle Available with 3 8 shaft holes (50 mm 100 mm lengths) Plate contains Combi holes in the shaft, locking holes in the head Available in stainless steel and titanium 241.172 3.5 mm LCP T-Plates, 3 holes head, oblique right Available with 3 8 shaft holes (52 mm 107 mm lengths) Plate contains Combi holes in the shaft, locking holes in the head Available in stainless steel and titanium 241.081 3.5 mm LCP T-Plates, 3 holes head, oblique left Available with 3 8 shaft holes (52 mm 107 mm lengths) Plate contains Combi holes in the shaft, locking holes in the head Available in stainless steel and titanium 241.981 LCP One-Third Tubular Plates, with collar Available with 3 10 holes (33 mm 117 mm lengths) and 12 holes (141 mm) Plate contains only locking holes that accept 3.5 mm locking screws, 3.5 mm cortex screws, and 2.7 mm cortex screws Available in stainless steel and titanium 241.401 Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 22

Plates 3.5 mm LCP Reconstruction Plates Available with 4 14 Combi holes (56 mm 196 mm lengths), 16 (224 mm), 18 (252 mm), 20 (280 mm) and 22 Combi holes (308 mm) Available in stainless steel and titanium 245.081 3.5 mm LCP Proximal Humerus Plates Distal shaft consists of three or five Combi holes in the shaft, including one elongated Combi hole to aid in plate positioning Holes accept 3.5 mm locking screws in the threaded portion, and 3.5 mm cortex screws, 4.0 mm cortex screws, and 4.0 mm cancellous bone screws in the compression portion Available in stainless steel and titanium Longer lengths are also available in the 3.5 mm LCP Long Proximal Humerus Plate Implant Sets: Stainless steel (01.109.602) and Titanium (01.109.604). Refer to the 3.5 mm LCP Proximal Humerus Plate Technique Guide. 3.5 mm LCP Curved Reconstruction Plates Available with 4 18 Combi holes in 2-hole increments Available in stainless steel only 245.401 22 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Instruments 310.21 2.0 mm Drill Bit, quick coupling, 125 mm 310.25 2.5 mm Drill Bit, quick coupling, 110 mm, gold 310.288 2.8 mm Drill Bit, quick coupling, 165 mm 310.35 3.5 mm Drill Bit, quick coupling, 110 mm 310.89 Countersink, for 3.5 mm Cortex and 4.0 mm Cancellous Bone Screws 311.32 Tap for 3.5 mm Cortex Screws, gold, 110 mm 311.34 Tap for 4.0 mm Cancellous Bone Screws, 110 mm Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 22

Instruments 311.43 Handle, with quick coupling 312.20 2.0 mm Parallel Drill Guide and Drill Sleeve 312.30 3.5 mm/ 2.5 mm Insert Drill Sleeve 312.648 2.8 mm Threaded Drill Guide 314.02 Small Hexagonal Screwdriver with Holding Sleeve 314.03 Small Hexagonal Screwdriver Shaft, quick coupling 314.115 StarDrive Screwdriver, T15, self-retaining 22 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Instruments 314.116 StarDrive Screwdriver Shaft, T15, self-retaining, quick coupling 315.28 2.7 mm Three-Fluted Drill Bit, quick coupling, 125 mm 319.01 Depth Gauge 319.39 Sharp Hook 319.97 Screw Forceps 323.023 1.6 mm Wire Sleeve 323.025 Direct Measuring Device Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 22

Instruments 323.050 Insertion Guide 323.053 3.5 mm Locking Screw Sleeve 323.054 2.8 mm Drill Sleeve 323.055 1.6 mm Wire Sleeve 323.26 2.7 mm Universal Drill Guide 323.36 3.5 mm Universal Drill Guide 324.023 Threaded Plate Holder 22 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Instruments 324.024 Push-Pull Reduction Device 324.031 Threaded Plate Holder, long 329.04 Bending Iron, for 2.7 mm and 3.5 mm plates (used with 329.05) 329.05 Bending Iron, for 2.7 mm and 3.5 mm plates (used with 329.04) 329.07 Bending Iron, for 2.7 mm and 3.5 mm Reconstruction Plates Bending Templates 329.87 7 holes 329.89 9 holes 329.820 12 holes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 22

Instruments 391.82 Wire-Bending Pliers 392.00 Bending Iron, for 1.25 mm, 1.6 mm, and 2.0 mm Kirschner Wires 398.40 Reduction Forceps with points, narrow, ratchet 398.41 Reduction Forceps with points, broad, ratchet 398.80* Self-Centering Bone Forceps, extra small serrated jaw, speed lock 398.811 Plate Holding Forceps with swivel foot *Included in the Small Fragment Instrument and Titanium Implant Set (145.434). 22 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Instruments 399.091* Bone Holding Forceps, soft ratchet, for plate widths up to 9 mm 399.19 Hohmann Retractor, 8 mm width, small 399.36 Periosteal Elevator, 6 mm width, curved blade, round edge 399.49 Hohmann Retractor, for small fragments, 15 mm width 399.99 Reduction Forceps, with serrated jaw, ratchet 511.773 Torque Limiting Attachment, 1.5 Nm, quick coupling *Included in the Small Fragment Instrument and Implant Set (105.434). Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 22

Small Fragment LCP Instrument and Implant Sets Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434) Sets 01.212.005 Small Fragment LCP Instrument and Implant Set, with 3.5 mm StarDrive cortex screws 01.212.006 Small Fragment LCP Instrument and Implant Set, with 3.5 mm HexDrive cortex screws 01.212.007 Small Fragment LCP Instrument and Implant Set, with 4.0 mm Cannulated Screws 01.212.008 Small Fragment LCP Instrument and Titanium Implant Set, with 3.5 mm StarDrive cortex screws 01.212.009 Small Fragment LCP Instrument and Titanium Implant Set, with 3.5 mm HexDrive cortex screws 105.434 Small Fragment LCP Instrument and Implant Set 145.434 Small Fragment LCP Instrument and Titanium Implant Set Graphic Cases 61.212.005 Small Fragment LCP Instrument and Implant Set Graphic Case, without screw rack (screw racks ordered separately) 690.347 Small Fragment LCP Instrument and Implant Set Graphic Case (includes screw rack 690.347.30) 690.410 Small Fragment LCP Instrument and Titanium Implant Set Graphic Case (includes screw rack 690.411) Screw Racks 690.347.30 Screw Rack (for Graphic Case 690.347) 690.411 Screw Rack (for Graphic Case 690.410) 691.383 Small Fragment LCP Cannulated Screw Rack, nylon coated (for set 01.212.007) 691.387 Small Fragment LCP Cannulated Screw Instrument Tray, nylon coated (for set 01.212.007) 691.443 Small Fragment LCP Screw Rack, for 3.5 mm StarDrive cortex screws, nylon coated (for sets 01.212.005 and 01.212.008) 691.444 Small Fragment LCP Screw Rack, for 3.5 mm hex drive cortex screws, nylon coated (for sets 01.212.006 and 01.212.009) 691.387 Note: For additional information, please refer to package insert. For detailed cleaning and sterilization instructions, please refer to www.synthes.com/cleaning-sterilization or sterilization instructions, if provided. 33 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Small Fragment LCP Instrument and Implant Sets Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434 Instruments 310.21 2.0 mm Drill Bit, quick coupling, 125 mm, 2 ea. 310.25 2.5 mm Drill Bit, quick coupling, 110 mm, gold, 2 ea. 310.288 2.8 mm Drill Bit, quick coupling, 165 mm, 2 ea. 310.35 3.5 mm Drill Bit, quick coupling, 110 mm, 2 ea. 310.67 * 2.7 mm Cannulated Drill Bit, quick coupling, 160 mm 310.86 * Cannulated Countersink, for 3.5 mm and 4.0 mm Cannulated Screws 310.89 Countersink, for 3.5 mm Cortex and 4.0 mm Cancellous Bone Screws 311.32 Tap for 3.5 mm Cortex Screws, gold, 110 mm, 2 ea. 311.34 Tap for 4.0 mm Cancellous Bone Screws, 110 mm, 2 ea. 311.43 Handle, with quick coupling 311.63 * Cannulated Tap for 4.0 mm Cannulated Screws, 147 mm 312.20 2.0 mm Parallel Drill Guide and Drill Sleeve 312.30 3.5 mm / 2.5 mm Insert Drill Sleeve 312.35 * 2.7 mm/1.25 mm Double Drill Sleeve 312.648 2.8 mm Threaded Drill Guide, 4 ea. 314.02 Small Hexagonal Screwdriver with Holding Sleeve 314.03 Small Hexagonal Screwdriver Shaft, quick coupling 314.08 * Holding Sleeve 314.115 StarDrive Screwdriver, T15, self-retaining 314.116 StarDrive Screwdriver Shaft, T15, self-retaining, quick coupling 314.29 * Cannulated Hexagonal Screwdriver 315.28 2.7 mm Three-Fluted Drill Bit, quick coupling, 125 mm, 2 ea. 319.01 Depth Gauge 319.15 * Cannulated Screw Measuring Device for 3.5 mm and 4.0 mm cannulated screws 319.25 * 1.35 mm Cleaning Brush 319.38 * 1.25 mm Cleaning Stylet 319.39 Sharp Hook * Included in stainless steel set 01.212.007 Included in titanium sets 145.434, 01.212.008, and 01.212.009 Included in stainless steel sets 105.434, 01.212.005, 01.212.006, and 01.212.007 319.97 Screw Forceps 323.023 1.6 mm Wire Sleeve, 2 ea. 323.025 Direct Measuring Device 323.050 Insertion Guide 323.053 3.5 mm Locking Screw Sleeve, 2 ea. 323.054 2.8 mm Drill Sleeve, 2 ea. 323.055 1.6 mm Wire Sleeve, 2 ea. 323.26 2.7 mm Universal Drill Guide 323.36 3.5 mm Universal Drill Guide 324.023 Threaded Plate Holder 324.024 Push-Pull Reduction Device 324.031 Threaded Plate Holder, long 329.04 Bending Iron, for 2.7 mm and 3.5 mm plates 329.05 Bending Iron, for 2.7 mm and 3.5 mm plates 329.07 Bending Iron, for 2.7 mm and 3.5 mm Reconstruction Plates, 2 ea. 329.820 Bending Template, 12 holes 329.87 Bending Template, 7 holes 329.89 Bending Template, 9 holes 391.82 Wire-Bending Pliers, 160 mm 392.00 Bending Iron, for 1.25 mm, 1.6 mm, and 2.0 mm Kirschner Wires 398.40 Reduction Forceps with points, narrow, ratchet 398.41 Reduction Forceps with points, broad, ratchet 398.80 Self-Centering Bone Forceps, 190 mm length extra small serrated jaw, speed lock 398.811 Plate Holding Forceps with swivel foot 399.091 Bone Holding Forceps, soft ratchet, for plate widths up to 9 mm 399.19 Hohmann Retractor, 8 mm width, small, 2 ea. 399.36 Periosteal Elevator, 6 mm width, curved blade, round edge 399.49 Hohmann Retractor, for small fragments, 15 mm width, 2 ea. 399.99 Reduction Forceps, with serrated jaw, ratchet, 2 ea. 511.773 Torque Limiting Attachment, 1.5 Nm, quick coupling 900.722 * 1.25 mm Threaded Guide Wire, 150 mm, 20 ea. Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 33

Small Fragment LCP Instrument and Implant Sets Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434) Implants (included in all sets) 3.5 mm LCP Plates, 2 ea. Stainless Steel Titanium Holes Length (mm) 223.551 423.551 5 72 223.561 423.561 6 85 223.581 423.581 8 111 223.591 423.591 9 124 223.601 423.601 10 137 223.621 423.621 12 163 223.641 423.641 14 189 3.5 mm LCP T-Plates, 3 holes head, oblique right Stainless Steel Titanium Shaft Holes Length (mm) 241.031 441.031 3 52 241.041 441.041 4 63 241.051 441.051 5 74 241.071 441.071 7 96 3.5 mm LCP T-Plates, 4 holes head, right angle Stainless Steel Titanium Shaft Holes Length (mm) 241.141 441.141 4 56 241.161 441.161 6 78 3.5 mm LCP T-Plates, 3 holes head, right angle Stainless Steel Titanium Shaft Holes Length (mm) 241.131 441.131 3 50 241.151 441.151 5 67 241.171 441.171 7 87 LCP One-Third Tubular Plates, with collar Stainless Steel Titanium Holes Length (mm) Qty. 241.351 441.351 5 57 2 241.361 441.361 6 69 2 241.371 441.371 7 81 2 241.381 441.381 8 93 1 241.401 441.401 10 117 1 241.421 441.421 12 141 1 3.5 mm LCP Proximal Humerus Plates, 6 holes head Stainless Steel Titanium Shaft Holes Length (mm) 241.901 441.901 3 90 241.903 441.903 5 114 3.5 mm LCP T-Plates, 3 holes head, oblique left Stainless Steel Titanium Shaft Holes Length (mm) 241.931 441.931 3 52 241.941 441.941 4 63 241.951 441.951 5 74 241.971 441.971 7 96 3.5 mm LCP Reconstruction Plates, 2 ea. Stainless Steel Titanium Holes Length (mm) 245.051 445.051 5 70 245.061 445.061 6 84 245.071 445.071 7 98 245.081 445.081 8 112 245.101 445.101 10 140 245.121 445.121 12 168 Stainless Steel Titanium 219.98 419.98 Washer, 7.0 mm, 6 ea. 292.12 492.12 1.25 mm Kirschner Wire, 150 mm, 1 pkg. of 10 292.20 492.20 2.0 mm Kirschner Wire, 150 mm, 1 pkg. of 10 292.71 292.71 1.6 mm Kirschner Wire with Thread, 150 mm, 5 mm thread length, 1 pkg. of 10 Stainless steel K-wire provided in all sets. 33 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Small Fragment LCP Instrument and Implant Sets Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434) Screws in Small Fragment LCP Sets 01.212.005, 01.212.006, 01.212.008, and 01.212.009 2.7 mm Cortex Screws, self-tapping Stainless Steel Titanium Length (mm) Qty. 202.810 402.810 10 4 202.812 402.812 12 4 202.814 402.814 14 4 202.816 402.816 16 4 202.818 402.818 18 4 202.820 402.820 20 4 202.822 402.822 22 2 202.824 402.824 24 2 202.826 402.826 26 2 202.828 402.828 28 2 202.830 402.830 30 2 202.832 402.832 32 2 202.834 402.834 34 2 202.836 402.836 36 2 202.838 402.838 38 2 202.840 402.840 40 2 202.845 402.845 45 2 202.850 402.850 50 2 202.855 402.855 55 2 4.0 mm Cancellous Bone Screws, fully threaded Stainless Steel Titanium Length (mm) Qty. 206.010 406.010 10 3 206.012 406.012 12 3 206.014 406.014 14 3 206.016 406.016 16 3 206.018 406.018 18 3 206.020 406.020 20 3 206.022 406.022 22 3 206.024 406.024 24 3 206.026 406.026 26 2 206.028 406.028 28 2 206.030 406.030 30 2 206.035 406.035 35 2 206.040 406.040 40 4 206.045 406.045 45 4 206.050 406.050 50 2 206.055 406.055 55 2 206.060 406.060 60 2 4.0 mm Cancellous Bone Screws, partially threaded Stainless Steel Titanium Length (mm) Qty. 207.010 407.010 10 2 207.012 407.012 12 2 207.014 407.014 14 2 207.016 407.016 16 2 207.018 407.018 18 2 207.020 407.020 20 2 207.022 407.022 22 2 207.024 407.024 24 2 207.026 407.026 26 2 207.028 407.028 28 2 207.030 407.030 30 3 207.035 407.035 35 3 207.040 407.040 40 6 207.045 407.045 45 6 207.050 407.050 50 3 207.055 407.055 55 3 207.060 407.060 60 3 Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 33

Small Fragment LCP Instrument and Implant Sets Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434) Screws in Small Fragment LCP Sets 01.212.005, 01.212.006, 01.212.008, and 01.212.009 3.5 mm Locking Screws, self-tapping, with StarDrive Recess Stainless steel Titanium Length (mm) Qty. 212.101 412.101 10 8 212.102 412.102 12 8 212.103 412.103 14 8 212.104 412.104 16 8 212.105 412.105 18 8 212.106 412.106 20 8 212.107 412.107 22 8 212.108 412.108 24 8 212.109 412.109 26 8 212.110 412.110 28 8 212.111 412.111 30 8 212.112 412.112 32 8 212.113 412.113 34 8 212.114 412.114 35 8 212.115 412.115 36 8 212.116 412.116 38 8 212.117 412.117 40 8 212.118 412.118 42 8 212.134 412.134 44 8 212.119 412.119 45 8 212.136 412.136 46 8 212.120 412.120 48 4 212.121 412.121 50 4 212.122 412.122 52 4 02.212.054 04.212.054 54 4 212.123 412.123 55 4 02.212.056 04.212.056 56 4 02.212.058 04.212.058 58 4 212.124 412.124 60 4 Screws in Small Fragment LCP Sets 01.212.005 and 01.212.008 3.5 mm Cortex Screws, self-tapping, with T15 StarDrive Recess, 6 ea. Stainless Steel Titanium Length (mm) 02.200.010 04.200.010 10 02.200.012 04.200.012 12 02.200.014 04.200.014 14 02.200.016 04.200.016 16 02.200.018 04.200.018 18 02.200.020 04.200.020 20 02.200.022 04.200.022 22 02.200.024 04.200.024 24 02.200.026 04.200.026 26 02.200.028 04.200.028 28 02.200.030 04.200.030 30 02.200.032 04.200.032 32 02.200.034 04.200.034 34 02.200.036 04.200.036 36 02.200.038 04.200.038 38 02.200.040 04.200.040 40 02.200.042 04.200.042 42 02.200.044 04.200.044 44 02.200.045 04.200.045 45 02.200.046 04.200.046 46 02.200.048 04.200.048 48 02.200.050 04.200.050 50 02.200.055 04.200.055 55 02.200.060 04.200.060 60 33 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Small Fragment LCP Instrument and Implant Sets Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434) Screws in Small Fragment LCP Sets 01.212.006, 01.212.007 (stainless steel only) and 01.212.009 3.5 mm Cortex Screws, self-tapping, with hex recess, 6 ea. Stainless Steel Titanium Length (mm) 204.810 404.810 10 204.812 404.812 12 204.814 404.814 14 204.816 404.816 16 204.818 404.818 18 204.820 404.820 20 204.822 404.822 22 204.824 404.824 24 204.826 404.826 26 204.828 404.828 28 204.830 404.830 30 204.832 404.832 32 204.834 404.834 34 204.836 404.836 36 204.838 404.838 38 204.840 404.840 40 204.842 42 204.844 44 204.845* 404.845 45 204.846 46 204.848 48 204.850 404.850 50 204.855 404.855 55 204.860 60 Screws in Small Fragment LCP Set 01.212.007 4.0 mm Cannulated Screws, short thread Length (mm) Qty. 207.610 10 2 207.612 12 2 207.614 14 2 207.616 16 2 207.618 18 2 207.620 20 2 207.622 22 2 207.624 24 2 207.626 26 2 207.628 28 2 *Not included in set 01.212.007. Screws in Small Fragment LCP Set 01.212.007 continued 4.0 mm Cannulated Screws, short thread Length (mm) Qty. 207.630 30 2 207.632 32 2 207.634 34 2 207.636 36 2 207.638 38 2 207.640 40 2 207.642 42 2 207.644 44 2 207.646 46 2 207.648 48 2 207.650 50 2 207.652 52 2 207.654 54 2 207.656 56 2 207.658 58 2 207.660 60 2 207.662 62 2 207.664 64 2 207.668 68 2 207.672 72 2 4.0 mm Cancellous Bone Screws, partially threaded Length (mm) Qty. 207.010 10 2 207.012 12 2 207.014 14 2 207.016 16 2 207.018 18 2 207.020 20 2 207.022 22 2 207.024 24 2 207.026 26 2 207.028 28 2 207.030 30 2 207.035 35 2 207.040 40 4 207.045 45 4 207.050 50 2 207.055 55 2 207.060 60 2 Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 33

Small Fragment LCP Instrument and Implant Sets Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434) Screws in Small Fragment LCP Set 01.212.007 continued 2.7 mm Cortex Screws, self-tapping Length (mm) Qty. 202.810 10 2 202.812 12 2 202.814 14 4 202.816 16 4 202.818 18 4 202.820 20 4 202.822 22 2 202.824 24 2 202.826 26 2 202.828 28 2 202.830 30 2 202.832 32 2 202.834 34 2 202.836 36 2 202.838 38 2 202.840 40 2 202.845 45 2 202.850 50 2 202.855 55 2 4.0 mm Cancellous Bone Screws, fully threaded Length (mm) Qty. 206.010 10 2 206.012 12 2 206.014 14 2 206.016 16 3 206.018 18 3 206.020 20 4 206.022 22 4 206.024 24 4 206.026 26 4 206.028 28 4 206.030 30 4 206.035 35 2 206.040 40 4 206.045 45 4 206.050 50 2 206.055 55 2 206.060 60 2 3.5 mm Locking Screws, self-tapping, with StarDrive Recess Length (mm) Qty. 212.101 10 6 212.102 12 6 212.103 14 6 212.104 16 6 212.105 18 6 212.106 20 6 212.107 22 6 212.108 24 6 212.109 26 6 212.110 28 6 212.111 30 6 212.112 32 6 212.113 34 6 212.115 36 6 212.116 38 6 212.117 40 6 212.118 42 6 212.134 44 6 212.136 46 6 212.120 48 6 212.121 50 6 212.122 52 6 02.212.054 54 6 02.212.056 56 5 02.212.058 58 5 212.124 60 6 33 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Small Fragment LCP Instrument and Implant Set Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434) Screws in Small Fragment LCP Sets 105.434 and 145.434 2.7 mm Cortex Screws, self-tapping Stainless Steel Titanium Length (mm) Qty. 202.810 402.810 10 3 202.812 402.812 12 3 202.814 402.814 14 3 202.816 402.816 16 3 202.818 402.818 18 3 202.820 402.820 20 3 202.822 402.822 22 3 202.824 402.824 24 3 202.826 402.826 26 3 202.828 402.828 28 3 202.830 402.830 30 3 202.832 402.832 32 3 202.834 402.834 34 3 202.836 402.836 36 3 202.838 402.838 38 3 202.840 402.840 40 3 202.845 402.845 45 3 202.850 402.850 50 3 202.855 402.855 55 3 3.5 mm Cortex Screws, self-tapping (with hex recess) Stainless Steel Titanium Length (mm) Qty. 204.810 404.810 10 6 204.812 404.812 12 6 204.814 404.814 14 6 204.816 404.816 16 6 204.818 404.818 18 6 204.820 404.820 20 6 204.822 404.822 22 6 204.824 404.824 24 6 204.826 404.826 26 6 204.828 404.828 28 6 204.830 404.830 30 6 204.832 404.832 32 6 204.834 404.834 34 6 204.836 404.836 36 6 204.838 404.838 38 6 204.840 404.840 40 6 204.845 404.845 45 6 204.850 404.850 50 6 204.855 404.855 55 4 204.860 60 4 Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 33

Small Fragment LCP Instrument and Implant Set Stainless Steel (01.212.005, 01.212.006, 01.212.007, 105.434) and Titanium (01.212.008, 01.212.009, 145.434) Screws in Small Fragment LCP Sets 105.434 and 145.434 continued 4.0 mm Cancellous Bone Screws, fully threaded Stainless Steel Titanium Length (mm) Qty. 206.010 406.010 10 4 206.012 406.012 12 4 206.014 406.014 14 8 206.016 406.016 16 8 206.018 406.018 18 8 206.020 406.020 20 8 206.022 406.022 22 4 206.024 406.024 24 4 206.026 406.026 26 4 206.028 406.028 28 4 206.030 406.030 30 4 206.035 406.035 35 4 206.040 406.040 40 4 206.045 406.045 45 4 206.050 406.050 50 4 206.055 406.055 55 4 206.060 406.060 60 4 4.0 mm Cancellous Bone Screws, partially threaded Stainless Steel Titanium Length (mm) Qty. 207.010 407.010 10 4 207.012 407.012 12 4 207.014 407.014 14 4 207.016 407.016 16 4 207.018 407.018 18 4 207.020 407.020 20 4 207.022 407.022 22 4 207.024 407.024 24 4 207.026 407.026 26 4 207.028 407.028 28 4 207.030 407.030 30 8 207.035 407.035 35 8 207.040 407.040 40 8 207.045 407.045 45 8 207.050 407.050 50 8 3.5 mm Locking Screws, self-tapping, with StarDrive Recess Stainless Steel Titanium Length (mm) Qty. 212.101 412.101 10 5 212.102 412.102 12 5 212.103 412.103 14 5 212.104 412.104 16 5 212.105 412.105 18 5 212.106 412.106 20 5 212.107 412.107 22 5 212.108 412.108 24 5 212.109 412.109 26 5 212.110 412.110 28 5 212.111 412.111 30 5 212.112 412.112 32 5 212.113 412.113 34 5 212.115 412.115 36 5 212.116 412.116 38 5 212.117 412.117 40 4 212.119 412.119 45 4 212.121 412.121 50 4 212.123 412.123 55 4 212.124 412.124 60 4 33 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique

Also Available Sets 01.109.602 3.5 mm LCP Long Proximal Humerus Plate Implant Set 01.109.604 3.5 mm Titanium LCP Long Proximal Humerus Plate Implant Set 105.436 Small Fragment LCP Instrument Set for Cannulated Screws Instruments 03.122.001 2.8 mm LCP Drill Guide, long, for 3.5 mm LCP Plates, for use with 03.122.002 03.122.002 2.8 mm LCP Drill Bit, quick coupling, 248 mm/95 mm calibration, for use with 03.122.001 329.15 Bending Pliers, for 2.7 and 3.5 mm plates 329.29 Bending Pliers, for 2.7 and 3.5 mm Reconstruction Plates 511.770 Torque Limiting Attachment, 1.5 Nm Implants 3.5 mm Stainless Steel Cortex Screws, self-tapping, with hex recess (stainless steel only) Length (mm) Length (mm) 204.865 65 204.890 90 204.870 70 204.895 95 204.875 75 204.900 100 204.880 80 204.905 105 204.885 85 204.910 110 4.0 mm Cancellous Bone Screws, fully threaded Stainless Steel Titanium Length (mm) 206.065 406.065 65 206.070 406.070 70 206.075 406.075 75 206.080 406.080 80 206.085 406.085 85 206.090 406.090 90 206.095 406.095 95 206.100 406.100 100 4.0 mm Cancellous Bone Screws, partially threaded Stainless Steel Titanium Length (mm) 207.065 407.065 65 207.070 407.070 70 207.075 407.075 75 207.080 407.080 80 207.085 407.085 85 207.090 407.090 90 207.095 407.095 95 207.100 407.100 100 4.0 mm Titanium Cannulated Screws, short thread Length (mm) Length (mm) 407.610 10 407.640 40 407.614 12 407.644 42 407.614 14 407.644 44 407.616 16 407.646 46 407.618 18 407.648 48 407.640 20 407.650 50 407.644 22 407.652 52 407.644 24 407.654 54 407.646 26 407.656 56 407.648 28 407.658 58 407.630 30 407.660 60 407.634 32 407.664 64 407.634 34 407.668 68 407.636 36 407.672 72 407.638 38 3.5 mm Locking Screws, self-tapping, with T15 StarDrive Recess (stainless steel only) Length (mm) Length (mm) 212.125 65 212.129 85 212.126 70 212.130 90 212.127 75 212.131 95 212.128 80 Small Fragment Locking Compression Plate (LCP ) System Surgical Technique DePuy Synthes 33

Also Available Implants continued 3.5 mm LCP Plates Stainless Steel Titanium Holes Length (mm) 223.521 423.521 2 33 223.531 423.531 3 46 223.541 423.541 4 59 223.571 423.571 7 98 223.611 423.611 11 150 223.631 423.631 13 176 223.651 423.651 15 202 223.661 423.661 16 215 223.671 423.671 18 241 223.681 423.681 20 267 223.691 423.691 22 293 3.5 mm LCP T-Plates, 3 holes head, oblique right Stainless Steel Titanium Shaft Holes Length (mm) 241.061 441.061 6 85 241.081 441.081 8 107 3.5 mm LCP T-Plates, 3 holes head, oblique left Stainless Steel Titanium Shaft Holes Length (mm) 241.961 441.961 6 85 241.981 441.981 8 107 3.5 mm LCP T-Plates, 3 holes head, right angle Stainless Steel Titanium Shaft Holes Length (mm) 241.142 441.142 4 57 241.162 441.162 6 77 241.181 441.181 8 97 LCP One-Third Tubular Plates, with collar Stainless Steel Titanium Shaft Holes Length (mm) 241.331 441.331 3 33 241.341 441.341 4 45 241.391 441.391 9 105 3.5 mm LCP Reconstruction Plates Stainless Steel Titanium Shaft Holes Length (mm) 245.041 445.041 4 56 245.091 445.091 9 126 245.111 445.111 11 154 245.131 445.131 13 182 245.141 445.141 14 196 245.161 445.161 16 224 245.181 445.181 18 252 245.201 445.201 20 280 245.221 445.221 22 308 3.5 mm LCP Curved Reconstruction Plates (stainless steel only) Shaft Holes Length (mm) 245.341 4 55 245.361 6 82 245.381 8 106 245.401 10 129 245.421 12 149 245.441 14 166 245.461 16 180 245.481 18 190 3.5 mm LCP T-Plates, 4 holes head, right angle Stainless Steel Titanium Shaft Holes Length (mm) 241.132 441.132 3 50 241.152 441.152 5 67 241.172 441.172 7 89 241.182 441.182 8 100 40 DePuy Synthes Small Fragment Locking Compression Plate (LCP ) System Surgical Technique